Study of the Pressure Drop of Liquid–Liquid Slug Flow in a Circular Microchannel

Abstract: In this paper, the pressure drop of liquid−liquid slug flow was studied. The effects of flow velocity, slug length, and interfacial tension on the pressure drop were investigated individually. Furthermore, the frictional and interfacial pressure drops were investigated. Computational fluid dynamics (CFD) simulation was used to modify the Hagen−Poiseuille equation to predict the frictional pressure drop with end effects. According to the findings, the interfacial pressure drop exhibits different characteristics… Show more

“…Film thickness variation depends on various conditions, and Aussillous and Quéré identified two regions, viz., visco-capillary and visco-inertial, to characterize the film thickness . The other aspects of interest in Taylor droplet flow include wettability, mass transfer, pressure drop, curved channel, rectangular cross section etc. − …”

Film Thickness Studies of Viscous Taylor Droplet Flow

“…Film thickness variation depends on various conditions, and Aussillous and Quéré identified two regions, viz., visco-capillary and visco-inertial, to characterize the film thickness . The other aspects of interest in Taylor droplet flow include wettability, mass transfer, pressure drop, curved channel, rectangular cross section etc. − …”

Film Thickness Studies of Viscous Taylor Droplet Flow

Heat transfer enhancement in a ribbed T-shaped microchannel by oil-water slug flow

Flow and Heat Transfer in Two-Phase Flow Immiscible Droplets in Microchannels